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The Journal of the Royal Institute of Thailand Vol. 27 No. 3 Jul.-Sept. 2002 «‘ »«°√√¡‡π◊È Õ‡¬◊Ë Õ¡πÿ …¬å ‡æ◊Ë Õ¡πÿ …¬å : √Ÿ ª·∫∫„À¡à ¢Õß°“√ √â “ßÀ≈Õ¥‡≈◊ Õ¥ ˆ˘ ¢≥–π’È Õ¬Ÿà „π¢—È πµÕπ∑“ßÀâ Õߪؑ ∫— µ‘ °“√ ‚¥¬„™â ‡´≈≈å ·≈–‡π◊È Õ‡¬◊Ë Õ®“°§πÀ√◊ Õ — µ«å . °“√π”¡“ª√–¬ÿ °µå „™â „π‡™‘ ß √— °…“Õ“®∑”‰¥â ·§à √–¥— ∫‡´≈≈å À√◊ Õ ‡π◊È Õ‡¬◊Ë Õ·µà ¬— ߉¡à ∂÷ ߢ—È πÕ«— ¬«–, ·µà ¡’ ·π«‚πâ ¡ Ÿ ß∑’Ë ®–𔉪 Ÿà ¬ÿ §¢Õß°“√∑” Õ«— ¬«–„πÕ𓧵 Úı . √Ÿª∑’ Ë ÒÙ «‘ »«°√√¡‡π◊È Õ‡¬◊Ë Õ®“°‡´≈≈å µâ 𰔇𑠥™π‘ ¥ºŸâ „À≠à . ‡´≈≈å µâ 𰔇𑠥∑’Ë ¡’ Õ¬àŸ ·≈â «„πºŸâ „À≠à ∂Ÿ °π”¡“°√–µÿâ π„Àâ ·∫à ß µ— «‡æ‘Ë ¡®”π«π, °√–µÿâ π„Àâ ®”·π°™π‘ ¥ ·≈–°√–µÿâ π„Àâ ¡’ æ— ≤π“°“√¢Õ߇´≈≈å „π«‘ »«°√√¡‡π◊È Õ‡¬◊Ë Õ ¯. Hori Y, Nakamura T, Kimura D, Kaino K, Kurokawa Y, Satomi S, Shimizu Y. Experimental study on tissue engineering of the small intes- tine by mesenchymal stem cell seed- ing. J Surg Res 2002; 102: 156-60. ˘. Õ√√∂ ‘ ∑∏‘Ï ‡«™™“™’ «–, ÿ √æ≈ Õ‘ √‰°√»’ ≈. ‡´≈≈å µâ 𰔇𑠥. «“√ “√√“™∫— ≥±‘ µ¬ ∂“π 2545; 27: 153-7. Ò. Muschler GF, Midura RJ. Connec- tive tissue progenitors: practical con- cepts for clinical applications. Clin Orthop 2002; 2002: 66-80. ÒÒ. Clarke DR, Lust RM, Sun YS, Black KS, Ollerenshaw JD. Transforma- tion of nonvascular acellular tissue matrices into durable vascular con- duits. Ann Thorac Surg 2001; 71 Suppl): S433-6. ÒÚ. Kwon IK, Park KD, Choi SW, Lee SH, Lee EB, Na JS, et al. Fibroblast culture on surface-modified poly (glycolide-co-epsilon-caprolactone) scaffold for soft tissue regeneration. J Biomater Sci Polym Ed 2001; 12: 1147-60. ÒÛ. Yang S, Leong KF, Du Z, Chua CK. The design of scaffolds for use in tis- sue engineering. Part II. rapid prototyping Techniques. Tissue Eng 2002; 8: 1-11. ÒÙ. Laurencin CT, Ambrosio AM, Borden MD, Cooper JA Jr. Tissue engineering: orthopedic applications. Annu Rev Biomed Eng 1999; 1: 19- 46. Òı. Temenoff JS, Mikos AG. Injectable biodegradable materials for orthope- dic tissue engineering. Biomaterials 2000; 21: 2405-12. Òˆ. Yung Lee J, Hall R, Pelinkovic D, Cassinelli E, Usas A, Gilbertson L, et al. New use of a three-dimen- sional pellet culture system for hu- man intervertebral disc cells: initial characterization and potential use for tissue engineering. Spine 2001 Nov 1; 26: 2316-22. Ò˜. Watanabe M, Shinoka T, Tohyama S, Hibino N, Konuma T, Matsumura «‘ »«°√√¡‡π◊È Õ‡¬◊Ë Õ®“°‡´≈≈å µâ 𰔇𑠥™π‘ ¥ºŸâ „À≠à ‡Õ° “√Õâ “ßÕ‘ ß Ò. Lûheureux N, Paquet S, Labbe R, Germain L, Auger FA. A completely biological tissue-engineered human blood vessel. FASEB J 1998; 12:47- 56. °“√°√–µÿâ π„Àâ ·∫à ßµ— «‡æ‘Ë ¡®”π«π °“√°√–µÿâ π„Àâ ®”·π°™π‘ ¥ °“√°√–µâÿ π„Àâ ¡’ æ— ≤π“°“√¢Õ߇´≈≈å °“√ √⠓߇π◊È Õ‡¬◊Ë Õ®“°‡´≈≈å ∑’Ë æ— ≤π“·≈â « ‡´≈≈å °√–¥Ÿ ° ‡´≈≈å °√–¥Ÿ °Õà Õπ ‡´≈≈å °≈â “¡‡π◊È Õ ‡´≈≈å ‚§√ß√à “ß ‡´≈≈å ‡ÕÁ π ‡´≈≈å ‰¢¡— π ‡´≈≈å µâ 𰔇𑠥™π‘ ¥ºŸâ „À≠à Ú. Edelman ER. Vascular tissue engi- neering: designer arteries. Circ Res 1999; 85: 1115-7. Û. Atala A. Engineering tissues and or- gans. Curr Opin Urol 1999; 9: 517- 26. Ù. Kim SS, Vacanti JP. The current sta- tus of tissue engineering as potential therapy. Semin Pediatr Surg 1999; 8: 119-23. ı. Chapekar MS. Tissue engineering: challenges and opportunities. J Biomed Mater Res 2000; 53: 617- 20. ˆ. Niklason LE, Langer R. Prospects for organ and tissue replacement. JAMA 2001; 285: 573-6. ˜. Huang JI, Beanes SR, Zhu M, Lorenz HP, Hedrick MH, Benhaim P. Rat extramedullary adipose tissue as a source of osteochondrogenic progeni- tor cells. Plast Reconstr Surg 2002; 109: 1033-41.